RU2137315C1 - Device controlling digital telephone set - Google Patents

Abstract

FIELD: electrical communication. SUBSTANCE: invention can find use in digital telephone sets placed in digital telephone networks where information is fed to telephone set and comes from it in digital form. According to preferable version device has unit switching codec on and off and signal analyzing unit incorporates shift register of input signals, first comparison circuit with first storage of code of sign of information signal. Output of shift register is connected to input of first comparison circuit whose second input is coupled to output of first storage. Output of first comparison circuit is connected to first controlling input of unit switching codec on and off which third output is connected to first controlling input of scrambler. In correspondence with another version proposed device has signal analyzing unit that includes second and third comparison circuits with codes of test and call correspondingly. Invention provides for switching codec and correspondingly scrambler on for the time of presence of information signal and for switching of codec of digital telephone set and scrambler off when there is no such signal with simultaneous protection of device against false operation. It also ensures consumption of energy required only by codec and scrambler. EFFECT: improved operational characteristics of device. 2 cl, 2 dwg

Description

 The invention relates to electrical communication technology, in particular to devices for controlling a digital telephone, and can find application in digital telephones installed in a digital telephone network, in which information is transmitted to and from the telephone in digital form.

Closest to the claimed solution on the technical nature and the technical result achieved is a device for controlling a digital telephone (CTA) according to the patent of the Russian Federation N 2009618, publ. 03/15/94, M. Cl. ⁵ H 04 M 1/72, comprising a handset position signal conditioner (FSTTT), a pulse train generator, an information and clock signal separation unit (AIS), a signal analysis unit, a counter, a scrambling unit, a dialer signal generator (FSNN), a call control driver the device (WU), the driver of the answers to the test (OT), the driver of the activity signal (FSA), the signal combining unit, the driver of the transmission information signal (IC), the driver of the power supply (VP), while the control input is FSPTT soy inen with the first input control bus, the first input of the ISS extraction unit is connected to the first input information bus, which is connected through the pulse generator to the second input of the ISS extraction unit, the output of the information signal of the ISS extraction unit is connected to the first information input of the scrambling unit and the information input of the analysis unit the first output of which through the driver control unit VU is connected to the first output control bus, the second output through the driver OT is connected to the first input of the signal combining unit, with the second input of which is connected to the first output of the scrambling unit, the second output of which is connected to the first output information bus, the first control output of the FSPTT is connected to the control input of the signal analysis unit and connected through the VP shaper to the second output control bus, the FSA output is connected to the third input of the signal combining unit , with the fourth input of which the output of the FSNN is connected, the output of the signal combining unit is connected to the information input of the ICP driver, the output of which is connected to the second information output bus and a clock output selection block is connected to ISS counting input of the counter and the input of clock generator COI. This CTA control device also contains a resolution interval generator, a prohibition interval generator after placing the handset, a standby signal generator, an activity resolution signal generator, and a signal analysis unit made in the form of a signal selector for pulse duration, while the scrambler unit contains a scrambler and descrambler . The control output of the FSPTT is connected to the counter control input through the standby signal conditioner, which in the active mode allows the counter to work, and in standby mode, the prohibition of the operation of the counter and, accordingly, of all the main elements of the control device, is blocked after placing the handset, and there is also a ban on the shaper (COI) of reception and transmission. At the same time, in standby mode, in the signal analysis block, a test and a call are extracted from the information sequence of signal pulses for the duration of incoming pulses, for a call signal, for a duration of τ ₁ = 2τ ₀ corresponding to the log. "1", for the test on τ ₁ and τ ₀ corresponding to the log. "0" in the form of a test code 1001. If there is a call signal from the output of the signal analysis unit, the signal arrives at the control output bus, and if there is a test signal from the output of the signal analysis unit, the signal is fed through the signal combining unit to the IC driver and then to the CTA output. In active mode, the signal analysis unit does not produce. In active mode, the device performs the following functions: forming a code sequence of the number of the pressed button in the FSNN; generating a power-on signal in the VP driver; generation of a subscriber activity signal in the FSA; formation of information signals (speech) in the scrambling block. In addition, the main elements of the device in active mode begin to work when there is a signal from the FSFTT about the removal of the handset by the subscriber and stop working only when this signal disappears, i.e. after laying the handset.

 The main disadvantage of this device for controlling a digital telephone is the lack of the ability to turn on the codec and, accordingly, the scrambling unit only for the duration of the information signal and accordingly turn it off in the absence of this signal while providing protection against false alarms of the device, which in turn does not allow for consumption energy by the codec and, accordingly, the scrambling unit only for the duration of the presence of the information signal and does not provide high noise immunity. This is due to the fact that this device does not have a codec enable / disable unit and, accordingly, a scrambling unit for the presence of an information signal, which also does not compare with an information signal attribute code, and the main elements of the device are turned on and off, respectively, when the subscriber picks up the phone and after it is placed .

 Another disadvantage of this device is the possibility of false operation of the device when receiving a call signal, which is also due to the low noise immunity of the device circuit, because the selection of this signal occurs by the duration of the pulses in the signal analysis unit, made in the form of a signal selector. Also, in this device, the selection of test and call signals is not provided when changing, if necessary, the test code, as well as a change in the duration of the call signal, without changing the circuit of the device.

 The basis of the invention is the creation of an effective device for controlling a digital telephone by enabling the codec and, respectively, the scrambling unit only for the duration of the information signal and, accordingly, disabling the codec and, accordingly, the scrambling unit in the absence of this signal, while protecting against false alarms of the control device , which in turn will ensure only the necessary energy consumption by the codec and, accordingly, scrambling unit while ensuring high noise immunity while. In addition, it provides protection against false alarms of the control device when receiving a call signal, which also allows for high noise immunity of receiving this signal. It also provides a change, if necessary, of the codes of the sign of the information signal, test and call without changing the circuit of the device.

The problem is solved in that the device for controlling a digital telephone, containing a shaper position signal of the handset (FSPTT),
pulse train generator, information and clock signals (ISS) isolation block, signal analysis block, counter, scrambling block, dialer signal generator (FSNN), call device control driver (WU), test response driver (OT), activity signal generator (FSA) ), a signal combining unit, a transmit information signal (ISP) driver, a power-on driver (VP), while the control signal input terminal is connected to the first control input bus, the first input of the ISS isolation block is connected n with the first input information bus, which is connected through the pulse generator to the second input of the ISS extraction unit, the output of the information signal of the ISS extraction unit is connected to the first input of information of the scrambling unit and the information input of the analysis unit, the first output of which is connected to the first output through the control unit VU control bus, the second output through the driver OT is connected to the first input of the signal combining unit, with the second input of which the first output of the scrambling unit is connected, the second output for which it is connected to the first information output bus, the first control output of the FSPTT is connected to the control input of the signal analysis unit and, through the VP driver, is connected to the second output control bus, the FSA output is connected to the third input of the signal combining unit, the output of the FSNN is connected to its fourth input, the output the signal combining unit is connected to the information input of the ICP shaper, the output of which is connected to the second information output bus, and the clock output of the ISS allocation block is connected to the counting input of the counter and the input of the sync signals of the ICP driver, the second information input of the scrambling unit is connected to the second input information bus, the third control input of which
connected to the second input control bus, contains a codec enable / disable unit (BVOK), and the signal analysis unit contains a shift register of input signals (BC), a first comparison unit and a first memory code block of an information signal attribute, while the input of the shift register is an input information of the signal analysis unit, and the output of the aircraft shift register is connected to the first input of the first comparison unit, the second input of which is connected to the output of the first block of the code of the sign of the information signal, the control input of the first block is The input is the control input of the signal analysis unit, and the output of the first comparison unit is the third output of the signal analysis unit, which is connected to the first input of the BVOK control, the second control input of which is connected to the counter output, the control input of which is connected to the first input control bus and the first signal bus FSA input, with the second signal input of which the first output of the BVOK is connected, the second output of which is connected to the third output control bus, and the third output is connected to the first control input a scrambling window, the second control input of which is connected to the second control input of the FSPTT, the first control output of which is connected to the third control input of the BVOK and the control input of the FSNN, the output of which is connected to the fourth input of the signal combining unit. The signal analysis block also contains a second comparison block and a second test code memory block, while the output of the shift register BC is connected to the first input of the second comparison block, with the second input of which the output of the second test code memory block is connected, the control input of the second comparison block is connected to the control input signal analysis unit, the second output of which is connected to the output of the second comparison unit. The signal analysis block also contains a third comparison block and a third call code memory block, while the output of the shift register BC is connected to the first input of the third comparison block, with the second input of which the output of the third call code memory block is connected, the control input of the third comparison block is connected to the control input signal analysis unit, the first output of which is connected to the output of the third comparison unit.

 The introduction to the circuit of the device for controlling a digital telephone of the codec on / off unit with the execution of a signal analysis unit with a shift register of the input signals connected to the first block of the memory code of the sign of the information signal to the first block of comparison allows you to compare the code of the sign of the presence of the information signal from the memory and a received information signal and, based on the comparison result, turn on the codec scheme only if there is an information signal at the CTA input, the sign of which coincides It goes with the data recorded in the memory block, and accordingly, turn off the codec scheme in the absence of the specified signal. And this allows us to ensure energy consumption by the CTA codec only for the time necessary to receive the information signal, while ensuring high noise immunity, since false alarms of the control device circuit are eliminated. And the connection of the control output of the shaper of the position of the handset to the third input of the on / off block of the codec and the second control input of the scrambling unit allows these blocks to work, i.e. puts them in the standby mode of the appearance at their respective inputs of the signal of the result of comparing the sign of the information signal from the signal analysis unit. Connecting the third output of the codec on / off unit to the first control input of the scrambling unit directly allows you to turn on the scrambling unit simultaneously with the codec only if there is a comparison of the sign of the information signal, which also provides only the necessary energy consumption for the duration of the information signal.

 The inclusion in the signal analysis unit of the second comparison unit with the second memory unit of the test code allows you to compare the test received at the input of the control device with its stored code in the memory unit and thereby identify it, which prevents the device from receiving a false test.

 The inclusion in the signal analysis unit of the third comparison unit with the third memory unit of the call code allows you to compare the call signal received at the input of the control device with its code stored in the memory unit and thereby identify it, which prevents the device circuit from receiving a false call signal.

 The above confirms the existence of a causal relationship between the totality of the essential features of the claimed invention and the achieved technical result.

 This set of essential features makes it possible, in comparison with the prototype, to enable the codec and, accordingly, the scrambling unit only for the duration of the information signal and, accordingly, disabling the CTA codec and the scrambling unit in the absence of this signal, while providing protection against false alarms of the control device the queue provides only the necessary energy consumption by the codec and, accordingly, the scrambling unit, while providing chenii high noise immunity while. In addition, it provides protection against false alarms of the control device when receiving a call signal, which also allows for high noise immunity of the reception of this signal. And also provided, if necessary, changing the codes of the sign of the information signal, test and call without changing the circuit of the device.

 According to the authors, the claimed technical solution meets the criteria of the invention of "novelty" and "inventive step", because the set of essential features characterizing the claimed device for controlling a digital telephone, is new and does not follow explicitly from the prior art.

 The invention is illustrated in the drawing, in which the same elements have the same numeric designations and where in FIG. 1 is a structural diagram of a device for controlling a digital telephone; in FIG. 2 shows a block diagram of a signal analysis unit.

 The preferred embodiment of a device for controlling a digital telephone apparatus in accordance with FIG. 1 comprises a receiver of a handset position signal (FSTTT) 1, a pulse train generator 2, a block 3 for extracting information and clock signals (ASC), a signal analysis unit 4, a counter 5, a block 6 a scrambler comprising a scrambler and descrambler, a shaper of 7 dialer signals (FSNN) in a digital code, a codec on / off unit 8 (ON / OFF), a test response shaper 9 (OT), a calling device control shaper 10 (WU), shaper 11 of the activity signal (FSA), block 12 combining signals, shaper 13 of the information signal transmission (ICP), shaper 14 power-up (VP), and block 4 signal analysis contains register 15 shift input signals (BC), the first , the second and third blocks 16, 17, 18 compare with the corresponding blocks 19, 20, 21 of the memory, respectively, the code of the sign of the information signal, test code and the code of the call signal. In this case, the control input of the shaper of the position signal of the handset is connected to the first input bus 22 of the control, the first input of the block 3 for extracting information and clock signals is connected to the first input bus 23 of the information, which is through the generator 2 pulse trains connected to the second input of the block 3, the output of the information signal unit 3 is connected to the first information input of the scrambling unit 6 and the information input of the signal analysis unit 4, the first output of which is connected to the the control output bus 24, the second output through the test response driver 9 is connected to the first input of the signal combining unit 12, the second output of which is connected to the first output of the scrambling unit 6, the second output of which is connected to the first information output bus 25, the first control output of the driver 1 the position signal of the handset is connected through the control input of the signal analysis unit 4 to the corresponding control inputs of the first, second and third comparison units 16, 17, 18 and through the power-on driver 14 connected to the second control output bus 26, the output of the activity signal generator 11 is connected to the third input of the signal combining unit 12, the output of the dialer signal generator 7 is connected to its fourth input, the output of the block 12 is connected to the information input of the transmission information signal generator 13, the output of which is connected to the second output bus 27 information, and the output of the clock signals of block 3 is connected to the counting input of the counter 5 and the input of the clock signals of the shaper 13, the second input of information of the block 6 scrambling connected to the second input bus 28 information, and the third input of the control unit 6 is connected to the second input bus 29 control.

 The input of the shift register 15 is the information input of the signal analysis unit 4, and the output of the register 15 is connected to the corresponding first inputs of the first, second and third comparison units 16, 17, 18, with the corresponding second inputs of which the corresponding outputs of the memory units 19, 20 and 21 are connected, the output of the first circuit 16 through the third output of block 4 is connected to the first control input of block 8, the second control input of which is connected to the output of the counter 5, the control input of which is connected to the first control input bus 22 and the first signal input m of the shaper 11, with the second signal input of which the first output of the block 8 is connected, the second output of which is connected to the third output bus 30 of the control, and the third output is connected to the first control input of the scrambling unit 6, the second control input of which is connected to the second control input of the shaper 1, the first control output of which is connected to the third control input of block 8 and the control input of the driver 7.

 In another embodiment, the device for controlling the CTA contains in the driver 7 of the dialer signals the corresponding blocks (not shown) of the memory of the dialed (current) number, as well as other numbers necessary for the subscriber.

 This device for controlling a digital telephone operates as follows.

 The device for controlling the CTA has two operating modes: standby and active. As in the first input control bus 22, the desired mode is set.

 If there is a logical unit level on the input bus 22, the driver 1 of the handset position signal, after laying it, has a logic level “1” at the outputs, and if there is a logical “0” on bus 22, a logical “0”.

The first input bus 23 of information receives a continuous sequence of pulses with PWM modulation with a frequency of F ₀ , duration τ ₀ - the corresponding log. "0", and τ ₁ = 2τ ₀ is the corresponding log. "1", the duration between the trailing edges is constant and equal to T ₀ = 1 / F ₀ . In addition, in this flow between pulses there is a synchronization pulse with a frequency F _c = 1 / 8F ₀ , duration τ ₀ or τ ₁ , with position relative to the previous information pulse t = T _0/2 .

The information sequence of pulses is fed to block 2 for the separation of information and clock signals, which transmits only pulses with a frequency of F ₀ . From the output of block 2, the clock frequency F ₀ and the information signal extended for a period of T ₀ are supplied to the elements of the CTA control device. In the standby mode of operation of the control device in block 4, information signals, a call signal and a test signal "1001" are analyzed. After analysis, the pulses of the call signal come through the shaper 10 to the first output bus 24 control, and the presence of the signal "test" from the output of the shaper 9 - log. "1" enters block 12 and then through block 13 enters the second output bus 27 information for transmission to the output of the CTA. In this case, the test signal in block 4 is fed to the input of the shift register 15 of the input signals and from its output it is compared in block 17 with the test code stored in the memory block 20, and from the output of block 17, the comparison result is sent to shaper 9. A call signal , which is a burst of pulses corresponding to the premises of a logical unit following with a frequency of 2.1-2.4 kHz, also goes to block 4 at the input of the shift register 15 of the input signals and from its output it is compared in block 18 with the call code that is stored in block 21 of the memory, and from the output of block 1 8, the comparison result is input to the shaper 10.

 In standby and active modes, from the pulse train arriving on the first input bus 23, a clock pulse is allocated in block 3 to the counting input of counter 5 and to the transmitter 13 of the transmission information signal, while the operation of counter 5 is enabled by its control input by command from the first input bus 22 control, with which the signal is formed activity of the subscriber at the first signal input of the shaper 11.

 In active mode, the following functions are performed in the device for controlling the CTA: forming a code sequence of the number of the pressed button in the shaper 7 signals of the dialer; the formation of power-on signals in the driver 14 and further to the second output control bus 26; generating a subscriber activity signal in the driver 11; formation of information signals (speech) for transmission to the CTA output.

 If the CTA control device is in active mode, then the test and call signal analysis is not performed, but the signal of the presence of the sign of the information signal is analyzed. In this case, the driver 1 generates a pick-up signal that prohibits the operation of the driver for answering the test 9 and the driver 10 of the call device and generates a subscriber activity signal for the driver 11 and enables the driver 7 of the dialer signal, block 8 on / off codec, block 6 scrambling and block 16 comparison of the code sign of the information signal and prohibits the operation of blocks 17 and 18 of the comparison signals of the test and call. Moreover, the information signal in block 4 of the signal analysis is fed to the input of register 15 of the shift of the input signals and from its output it is compared in block 16 with the code of the sign of the information signal, which is stored in block 19 of the memory, and from the output of block 16, the comparison result is sent to block 8 for enable the codec on the third output control bus 30 to enable the scrambling unit 6, in which the signal is statically converted inverse to scrambling (descrambling). This signal is supplied to the corresponding input of the codec via the second output of block 6 and the first information output bus 25, and the signal received via the second information input bus 28 is sent to the second information input of the scrambling unit 6 (the signal is converted statically) and the first output of block 6 through the block 12 and the driver 13 to the second output bus 27 information and then to the output of the CTA.

 The conformity of the claimed technical solution to the criteria of the invention "industrial applicability" is confirmed by the specified example of a device for controlling a digital telephone.

Claims (3)

 1. A device for controlling a digital telephone apparatus, comprising a handset position signal conditioner (FSTTT), a pulse train generator, an information and clock signal extraction unit (AIS), a signal analysis unit, a counter, a scrambling unit, a dialer signal generator (FSNN), a control driver a calling device (WU), a driver of a response to a test (OT), a driver of an activity signal (FSA), a signal combining unit, a driver of an information transmission signal (IC), a driver including power supply (VP), while the control input FSPTT is connected to the first input control bus, the first input of the ISS extraction unit is connected to the first input information bus, which is connected through the pulse train generator to the second input of the ISS allocation unit, the output of the information signal of the ISS allocation unit is connected with the first input of information of the scrambling unit and the input of information of the signal analysis unit, the first output of which is connected to the first output control bus through the driver control unit VU, the second output through the driver OT is connected to the first input of the signal combining unit, with the second input of which the first output of the scrambling unit is connected, the second output of which is connected to the first output information bus, the first control output of the FSPTT is connected to the control input of the signal analysis unit and connected to the second output control bus through the VP driver , the FSA output is connected to the third input of the signal combining unit, the output of the FSNN is connected to its fourth input, the output of the signal combining unit is connected to the information input of the ICP driver, the output of which is connected to the second output information bus, and the clock output of the ISS extraction unit is connected to the counter input of the counter and the clock input of the IC driver, the second information input of the scrambling unit is connected to the second information input bus, the third control input of which is connected to the second input control bus, different the fact that it contains a codec enable / disable unit (BVOK), and a signal analysis unit contains a shift register of input signals (BC), a first comparison unit and a first prize code memory unit as an information signal, while the input of the aircraft shift register is the information input of the signal analysis unit, and the output of the aircraft shift register is connected to the first input of the first comparison unit, the second input of which is connected to the output of the first information code attribute code memory block, the control input of the first comparison unit is the control input of the signal analysis unit, and the output of the first comparison unit is the third output of the signal analysis unit, which is connected to the first input of the BVOK control, the second control input to is connected to the output of the counter, the control input of which is connected to the first input control bus and to the first signal input of the FSA, with the second signal input of which the first output of the BVOK is connected, the second output of which is connected to the third output control bus, and the third output is connected to the first control input a scrambling unit, the second control input of which is connected to the second control input of the FSPTT, the first control output of which is connected to the third control input of the BVOK and the control input of the FSNN, the output of which is connected nen to fourth input signal combination unit.  2. The device according to claim 1, characterized in that the signal analysis unit comprises a second comparison unit and a second test code memory unit, wherein the output of the shift register BC is connected to the first input of the second comparison unit, the second input of which is connected to the output of the second code memory unit text, the control input of the second comparison unit is connected to the control input of the signal analysis unit, with the second output of which the output of the second comparison unit is connected.  3. The device according to claim 2, characterized in that the signal analysis unit comprises a third comparison unit and a third call code memory unit, wherein the output of the shift register BC is connected to the first input of the third comparison unit, the output of the third code memory unit is connected to its second input call, the control input of the third comparison unit is connected to the control input of the signal analysis unit, with the first output of which the output of the third comparison unit is connected.

Images